Basic Structural Theory
Structural Analysis of Polymeric Composite Materials
Structural Analysis of Polymeric Composite Materials
Theory of Structures Books
|
|
Basic Structural Theory |
Structural Analysis of Polymeric Composite Materials |
Exact Solutions for Buckling of Structural Members |
Principles of Structural Design |
Handbook of Civil Engineering Calculations |
Structural Elements Design Manual |
Fundamentals of Structural Mechanics |
Mechanics of Structural Elements |
Linear & Nonlinear Structural Mechanics |
Computational Mechanics in Structural Engineering |
Applied Structural Mechanics : Fundamentals of Elasticity, Load-Bearing Structures, Structural Optimization |
Composite Structures of Steel Concrete Beams, Slabs, Columns, Frames for Buildings |
| Descripsion |
| Introduction. Scope. Types of structures and supports. Types of loads. Conditions of static stability. Calculations of reactions. Definition of internal forces (normal forces, shear forces, bending moments and twisting moments). Internal forces in the horizontal beams (cantilevers, simple beams, overhanging beams, compound beams). Differential relations between loads and internal forces. Internal forces in inclined beams. Internal forces in simple, hinged, compound, and arched frames. Analytical and graphical methods for finding the internal forces in simple ,compound ,and subdivided trusses and trussed beams, Influence lines for statically determinate structures. Properties of plane areas: – principal axes and principal moments of inertia, Mohr’s circle. Distribution of normal stresses: – normal stresses due to single and double bending in symmetric and non-symmetrical sections, eccentric normal forces, core theory. Distribution of shear stresses: – direct shear, shear in bending, line sections, shear flow, shear center, non-symmetrical sections. Torsion:- applications on power transmission shafts. Plane stresses and strains:- principal stresses and similarity between stresses and strains, strain rosette. Deflection of beams:- method of double integration, method of elastic loads, deflection of beams with variable cross sections. Buckling of compression members (columns):- critical loads for columns under centric loads, compression members under eccentric loads and lateral loads Statics of structures. Internal forces in plane beams. Internal forces in trusses. Normal and shear stresses distribution. Concrete foundations for electrical equipments and the effect of vibrations,Analysis of statically indeterminate structures by the method of superposition, beams with variable cross sections and beams on elastic supports . Analysis of statically indeterminate structures by the method of three moment equation. Maximum diagrams of shear forces, bending moments for statically indeterminate beams . Elastic strain energy . Theory of virtual work:– calculation of deformations in statically determinate structures due to loads and temperature changes. Analysis of statically indeterminate structures by the method of virtual work:- beams, frames, arches and trussed beams . Effect of yielding of supports and temperature changes Analysis of statically indeterminate structures by the method of moment distribution:– stiffness coefficients, distribution and carry over factors, fixed end moments ,structures without lateral sway, method of successive carry over, structures with lateral sway, elastic supports, yielding of supports and temperature changes . Influence lines for statically indeterminate structures using the different methods of analysis . Introduction to stiffness method for structural analysis, Study of the principles of statics for structures. Introduction to principle theories of structural systems .Concepts of structural behavior for building systems(reactions, equilibrium, stability, stiffness). Static analysis of forces. Study of internal and external forces and analytical solutions for rigid stable bodies. Diagrams of internal forces (bending moments, shear forces, normal forces). Methods of calculating structural deformations and deflection of statically determinate beams . Introduction to statically indeterminate structures, the analysis of statically indeterminate structures by the method of superposition and the method of three moment equation . Analysis of plane internal stresses (types of stresses, properties of areas, distribution of normal stresses, shear stresses in bending and torsion ). Buckling of columns |
